Cylinder Assembly
Abstract
A printing cylinder assembly for detecting existing and/or developing errors during printing comprising at least one printing cylinder which is suitable for printing on a material, and has at least one cylindrical body, at least one shaft forming a rotational axis for the body, and characterized by the printing cylinder which has at least one cavity extending from the surface of the body towards its interior volume, at least one sensor which is suitable for being placed in the said cavity, at least one communication interface which is suitable for communicating with an external device, at least one control unit which is adapted to receive data from the sensor, and transfer these data to an external device via the communication interface directly and/or by processing them, and at least one power supply which is for supplying the power needed by the sensor, the communication interface and/or the control unit.
Claims
exact text as granted — not AI-modified1 . A cylinder assembly for detecting existing and/or developing errors during operating comprising:
at least one cylinder comprising at least one cylindrical body, at least one shaft forming a rotational axis for the body, and characterized by
the cylinder having a curved surface and two end surfaces, the cylinder having at least one cavity extending into a first end surface of the cylindrical body towards its interior volume,
at least one acceleration sensor configured to be placed in the said cavity,
at least one communication interface configured to communicate with an external device,
at least one control unit which is adapted to receive data from the sensor, and process the data to identify and indicate a region of imbalance in the cylinder, and
at least one power supply which is for supplying the power needed by the sensor, the communication interface and/or the control unit.
2 . The cylinder assembly according to claim 1 , characterized in that it further comprises a separate sensor for each data desired to be measured and/or a sensor configured to measure more than one data at the same time or a combination of these sensors.
3 . The cylinder assembly according to claim 1 , characterized by the power supply which is a battery and/or an inductive power supply.
4 . The cylinder assembly according to claim 1 , characterized by the power supply which is an inductive power supply configured to charge the said battery.
5 . The cylinder assembly according to claim 1 , characterized by the sensor which is an accelerometer for measuring the vibrations of the cylinder during operation.
6 . The cylinder assembly according to claim 2 , characterized in that the separate sensor is a speed sensor configured for measuring the speed of the cylinder.
7 . The cylinder assembly according to claim 2 , characterized by the separate sensor being a temperature sensor.
8 . The cylinder assembly according to claim 1 , characterized by the sensor which provides an analog and/or digital data corresponding to the value desired to be measured or a representation of the said value.
9 . The cylinder assembly according to claim 8 , characterized by the sensor configured to transfer the said data wirelessly.
10 . The cylinder assembly according to claim 1 , characterized by the control unit configured to transfer the data it receives from the sensor to an external device via the communication interface by processing and/or in raw form.
11 . The cylinder assembly according to claim 10 , comprising at least one memory unit configured to store the said data therein.
12 . The cylinder assembly according to claim 11 , characterized by the control unit configured to transfer the data in the memory unit to an external device collectively or partially when a connection is established with the external device.
13 . The cylinder assembly according to claim 1 , characterized by at least one polymeric material which fills the cavity in order to enable the components therein to remain fixed.
14 . The cylinder assembly according to claim 10 , comprising at least one clock signal generator in order to provide time data.
15 . The cylinder assembly according to claim 1 , characterized by the cylinder which has at least one mounting hole on top and/or bottom of its body that is configured to mount at least one weight.
16 . The cylinder assembly according to claim 15 , characterized by the cylinder which has at least eight mounting holes, being at least one in each quadrant in the circular cross section of the cylindrical body.
17 . The cylinder assembly according to claim 1 , wherein the sensor is entirely within the cavity.
18 . The cylinder assembly according to claim 1 , wherein the sensor is configured to measure acceleration data.
19 . The cylinder assembly according to claim 1 , wherein the sensor is configured to measure speed data.
20 . The cylinder assembly according to claim 1 , wherein the cylindrical body comprises a single piece.
21 . An error detection method, which is executed by the control unit of a cylinder assembly according to claim 1 , characterized by the steps of
detecting whether the cylinder has started to rotate or not by means of a sensor, measuring the time elapsed during operation by means of clock signals in case the cylinder has started to rotate, receiving acceleration and temperature data from the sensor, comparing the acceleration data with the reference acceleration data, determining whether there is a balance problem as a result of this comparison, determining the balance region and intensity in case there is a balance problem, informing the operator that there is a balance problem.
22 . The error detection method according to claim 21 , characterized by the step of informing the user about the region and intensity of the balance after the determination of the region and intensity of the balance, and furthermore guiding the user about how much weight should be attached to which region in order to eliminate the said balance.Cited by (0)
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